Research on the construction of marine creatures classification and identification model based on ResNet50

IF 0.5 Q4 ENGINEERING, MULTIDISCIPLINARY Journal of Computational Methods in Sciences and Engineering Pub Date : 2023-12-15 DOI:10.3233/jcm-226974

Hongsuo Tang, Yuchen Zhou, Pengfei Hou, Libao Xing, Yanyan Chen, Hui Li

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引用次数: 0

Abstract

There are many kinds of Marine organisms and their biological forms differ greatly, so it is difficult to guarantee the accuracy of artificial species identification, which brings great challenges to the work of Marine species identification. In this paper, we propose a recognition method of Marine biological image classification using residual neural network, redefining convolution layer and using batch regularization to avoid gradient parameter disorder. The bottleneck layer is realized by the residual connection in the neural network, and the residual network ResNet50 is constructed by the transfer learning method. The classification training was conducted on 19 common Marine animal data sets, and the experimental results showed that the recognition accuracy of ResNet50 reached about 90%. Compared with the traditional convolutional neural network VGG19, the results showed that the recognition efficiency of ResNet50 was better, thus verifying the effectiveness of the Marine animal classification and recognition model proposed in this paper.

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基于 ResNet 的海洋生物分类与识别模型构建研究50

海洋生物种类繁多，生物形态千差万别，人工物种识别的准确性难以保证，这给海洋物种识别工作带来了极大的挑战。本文提出了一种利用残差神经网络进行海洋生物图像分类的识别方法，重新定义卷积层，利用批量正则化避免梯度参数紊乱。瓶颈层由神经网络中的残差连接实现，残差网络 ResNet50 采用迁移学习方法构建。对 19 个常见海洋动物数据集进行了分类训练，实验结果表明，ResNet50 的识别准确率达到了 90% 左右。与传统的卷积神经网络 VGG19 相比，结果表明 ResNet50 的识别效率更高，从而验证了本文提出的海洋动物分类与识别模型的有效性。

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来源期刊

Journal of Computational Methods in Sciences and Engineering ENGINEERING, MULTIDISCIPLINARY-

CiteScore

0.80

自引率

0.00%

发文量

152

期刊介绍： The major goal of the Journal of Computational Methods in Sciences and Engineering (JCMSE) is the publication of new research results on computational methods in sciences and engineering. Common experience had taught us that computational methods originally developed in a given basic science, e.g. physics, can be of paramount importance to other neighboring sciences, e.g. chemistry, as well as to engineering or technology and, in turn, to society as a whole. This undoubtedly beneficial practice of interdisciplinary interactions will be continuously and systematically encouraged by the JCMSE.